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New Antioxidants Impacting on ROS and Free Radical Mediated Cellular Damage and Disease. Oxidative stress describes the condition where free radicals damage cells and biological systems and this stress underlies many diseases including neurological conditions and aging disorders such as Alzheimer's Disease. This project sets out to create new forms of powerful antioxidant drugs able to probe the mechanisms of such diseases with the view to developing new treatments and therapies.
Identification of functionally important autophosphorylation site(s) on ataxia telangiectasia and Rad 3 - related (ATR) protein kinase. The integrity of our genetic material must be maintained so that it can be passed on from one generation to the next and also to minimize the risk of cancer and other pathologies in an individual. There are multiple proteins involved in protecting our DNA including several enzymes that detect and signal DNA damage to a series of pathways involved in halting the ....Identification of functionally important autophosphorylation site(s) on ataxia telangiectasia and Rad 3 - related (ATR) protein kinase. The integrity of our genetic material must be maintained so that it can be passed on from one generation to the next and also to minimize the risk of cancer and other pathologies in an individual. There are multiple proteins involved in protecting our DNA including several enzymes that detect and signal DNA damage to a series of pathways involved in halting the passage of cells through the cell cycle so that repair can occur. This project studies the mechanism of action of one of these enzymes which will be of benefit in designing new compounds to fight disease. Read moreRead less
MRNA Surveillance In Human Disease: Molecular Determinants Of Nonsense-mediated MRNA Decay
Funder
National Health and Medical Research Council
Funding Amount
$474,517.00
Summary
Inherited diseases are a common cause of human disability, illness and suffering. It has been estimated that 5-10% of the population will be affected by disorders with a genetic component. Thus studies on mechanisms of inherited diseases, especially those relating to genetic mechanisms with relevance across a wide range of individual disorders and gene mutations, are of great significance in diagnosis, molecular pathology and the eventual development of therapeutics. While there are many types o ....Inherited diseases are a common cause of human disability, illness and suffering. It has been estimated that 5-10% of the population will be affected by disorders with a genetic component. Thus studies on mechanisms of inherited diseases, especially those relating to genetic mechanisms with relevance across a wide range of individual disorders and gene mutations, are of great significance in diagnosis, molecular pathology and the eventual development of therapeutics. While there are many types of mutations, one relatively common type is called a premature termination mutation. Premature termination mutations introduce an inappropriate genetic signal that tells the cells to stop the formation of proteins before they are complete. This would result in the production of a protein that is shorter than normal, and these short proteins could be quite abnormal and drastically affect the normal function of cells. To overcome this, cells have developed elegant strategies that involve the deployment of quality control, or surveillance, mechanisms to remove the mutant gene product before it can be converted into an abnormal protein. This process is called nonsense mediated decay. Nonsense mediated decay is a complex process and some of the key components have been identified by studies on a small number of genes. However, our studies have identified several previously unknown aspects of the process that suggest that the currently held view of how nonsense mediated decay works is only the beginning of the story and further important complexity exists. The proposed research will explore the basic mechanisms of the surveillance process and determine the signals that initiate nonsense mediated decay. Since premature termination mutations cause one-third of all inherited genetic disorders, our studies will provide new insights into the surveillance mechanisms and will have wide applicability to our understanding of the basis of inherited disease.Read moreRead less
Functional characterization of SSB2: a novel single-stranded DNA binding protein. Defects in the DNA damage response pathway underpin many human genetic disorders and diseases. A detailed understanding of this pathway has enormous implications for future medicine. The proposed research will lead to functional characterization of a new protein, identify new concepts in DNA damage repair pathways, train young researchers and place Australia among the leaders in this internationally significant and ....Functional characterization of SSB2: a novel single-stranded DNA binding protein. Defects in the DNA damage response pathway underpin many human genetic disorders and diseases. A detailed understanding of this pathway has enormous implications for future medicine. The proposed research will lead to functional characterization of a new protein, identify new concepts in DNA damage repair pathways, train young researchers and place Australia among the leaders in this internationally significant and highly competitive area of research. It will underpin the national research priority of Promoting and Maintaining Good Health and help Australia capitalise on a plethora of opportunities for future economic and health benefits.Read moreRead less
Dynamics and assembly of BRCA1-associated DNA repair complexes. This research project will study how cells respond to breakages in DNA by directing a team of repair proteins to the damaged DNA. BRCA1 is one of several repair proteins, and BRCA1 gene mutations impair its DNA repair function and predispose patients to breast/ovarian cancer. Improved insight into BRCA1 regulation could enhance our understanding of this disease. There are >13,000 new cases of breast/ovarian cancer each year with mor ....Dynamics and assembly of BRCA1-associated DNA repair complexes. This research project will study how cells respond to breakages in DNA by directing a team of repair proteins to the damaged DNA. BRCA1 is one of several repair proteins, and BRCA1 gene mutations impair its DNA repair function and predispose patients to breast/ovarian cancer. Improved insight into BRCA1 regulation could enhance our understanding of this disease. There are >13,000 new cases of breast/ovarian cancer each year with more than 3,300 deaths, making it a serious healthcare issue in Australia, and placing this project within Research Priority 2: Promoting and Maintaining Good Health. If successful this project will yield insights into the role of BRCA1 in fixing DNA aberrations which could help in anti-cancer agent development. Read moreRead less
Mitochondrial targeting of the DNA repair protein BARD1. This is a fundamental research project to address a novel localisation pattern of the nuclear DNA repair protein, BARD1. BARD1 gene mutations occur in a subset of breast/ovarian cancer patients, and improved insight into BARD1 regulation could enhance our understanding of this disease. There are over 13,000 new cases of breast/ovarian cancer each year with more than 3,300 deaths, making it a serious healthcare issue in Australia, and placi ....Mitochondrial targeting of the DNA repair protein BARD1. This is a fundamental research project to address a novel localisation pattern of the nuclear DNA repair protein, BARD1. BARD1 gene mutations occur in a subset of breast/ovarian cancer patients, and improved insight into BARD1 regulation could enhance our understanding of this disease. There are over 13,000 new cases of breast/ovarian cancer each year with more than 3,300 deaths, making it a serious healthcare issue in Australia, and placing this project within Research Priority 2: Promoting and Maintaining Good Health. If successful this project will characterise the cellular transport route of BARD1 which could help in anti-cancer agent development. Read moreRead less
Understanding the role of the corepressor protein KAP1 in DNA damage response pathway. Defects in the DNA damage response pathway underpin many human genetic disorders and diseases, including cancer. A detailed understanding of this process has enormous implications for future medicine. Our characterization of a new player involved in DNA damage signalling will help in screening of inhibitors of this pathway that could be applied in chemo-and/or radiotherapy. The proposal will place Australia am ....Understanding the role of the corepressor protein KAP1 in DNA damage response pathway. Defects in the DNA damage response pathway underpin many human genetic disorders and diseases, including cancer. A detailed understanding of this process has enormous implications for future medicine. Our characterization of a new player involved in DNA damage signalling will help in screening of inhibitors of this pathway that could be applied in chemo-and/or radiotherapy. The proposal will place Australia among the leaders in this internationally significant and highly competitive area of research leading to the creation of new compounds. Capture of this technology will create the opportunity for IP income, novel exports and new enterprises for Australia.Read moreRead less
Preventing genetic damage with BIX - a novel player in the DNA damage response pathway. Defects in the DNA damage-response pathway underpin many human genetic disorders and diseases, including cancer. A detailed understanding of this process has enormous implications for future medicine. Our characterization of a novel protein involved in DNA damage signalling will help in screening inhibitors of this pathway that could be applied in chemo-and/or radiotherapy. This proposal will place Australia ....Preventing genetic damage with BIX - a novel player in the DNA damage response pathway. Defects in the DNA damage-response pathway underpin many human genetic disorders and diseases, including cancer. A detailed understanding of this process has enormous implications for future medicine. Our characterization of a novel protein involved in DNA damage signalling will help in screening inhibitors of this pathway that could be applied in chemo-and/or radiotherapy. This proposal will place Australia among the leaders in this internationally significant and highly competitive area of research leading to the creation of new compounds. Capture of this technology will create the opportunity for IP income, novel exports and new enterprises for Australia.Read moreRead less
Characterisation of APC intracellular trafficking pathways. This is a fundamental research project aimed at addressing the cell biology of the APC tumour suppressor protein. APC gene mutations are directly linked to the development of colorectal cancer, a serious healthcare issue in Australia with approximately 12,400 new cases diagnosed each year and around 4,700 deaths. The severity of cases in men and women who develop colorectal cancer makes this a socio-economically serious health issue, an ....Characterisation of APC intracellular trafficking pathways. This is a fundamental research project aimed at addressing the cell biology of the APC tumour suppressor protein. APC gene mutations are directly linked to the development of colorectal cancer, a serious healthcare issue in Australia with approximately 12,400 new cases diagnosed each year and around 4,700 deaths. The severity of cases in men and women who develop colorectal cancer makes this a socio-economically serious health issue, and our project falls within the Research Priority 2: Promoting and Maintaining Good Health. If successful our project will identify localisation patterns and pathways of movement of APC within cells, which could ultimately help in development of treatments. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882382
Funder
Australian Research Council
Funding Amount
$245,000.00
Summary
Biophysical Characterisation Facility. The protein analysis facility will have substantial benefits for basic science and biotechnology. It will create capacity for South Australian researchers to study proteins at the biophysical level. The facility will support research projects within the designated national research priority areas of 'Frontier technologies for building and transforming Australian industries' and 'Promoting and maintaining good health